负载脂肪干细胞和骨形态发生蛋白-2的3D打印仿生支架用于增强肩袖修复

3D-printed biomimetic scaffolds loaded with ADSCs and BMP-2 for enhanced rotator cuff repair.

作者信息

Wu Zhonglian, Yang Jian, Chong Hui, Dai Xiaomei, Sun Haidi, Shi Junli, Yuan Meijuan, Liu Dianwei, Dang Mengbo, Yao Hang, Fei Wenyong

机构信息

School of Chemistry and Chemical Engineering, Yangzhou University, Yangzhou 225009, P. R. China.

Department of Sports Medicine, Northern Jiangsu People's Hospital, Yangzhou 225001, P. R. China.

出版信息

J Mater Chem B. 2024 Dec 4;12(47):12365-12377. doi: 10.1039/d4tb01073f.

DOI:10.1039/d4tb01073f

PMID:39484739

Abstract

Rotator cuff tear repair poses significant challenges due to the complex gradient interface structure. In the face of disease-related disruptions in the tendon-bone interface (TBI), the strategy of constructing a biomimetic scaffold is a promising avenue. A novel 3D-printed rotator cuff scaffold loaded adipose stem cells (ADSCs), bone morphogenetic protein-2 (BMP-2), and collagen type I (COL I). The efficiency of the slow-release BMP-2 design depended on the dopamine-hyaluronic acid (HAD) and BMP-2 reaction. The cumulative release of BMP-2 was 44.97 ± 5.45% at 4 weeks. The 3D-printed bilayer scaffold, incorporating COL I and BMP-2, effectively promoted the differentiation of ADSCs into osteogenic, tenogenic, and chondrogenic lineages . The combination of 3D-printed bioactive scaffolds and ADSCs demonstrated a superior repair effect on rotator cuff injuries . Therefore, these findings indicates that the 3D-printed biomimetic scaffold loaded with ADSCs and BMP-2 holds potential as a promising graft for TBI healing.

摘要

由于复杂的梯度界面结构，肩袖撕裂修复面临重大挑战。面对肌腱-骨界面（TBI）与疾病相关的破坏，构建仿生支架的策略是一条有前景的途径。一种新型的3D打印肩袖支架负载了脂肪干细胞（ADSCs）、骨形态发生蛋白-2（BMP-2）和I型胶原蛋白（COL I）。缓释BMP-2设计的效率取决于多巴胺-透明质酸（HAD）与BMP-2的反应。4周时BMP-2的累积释放率为44.97±5.45%。包含COL I和BMP-2的3D打印双层支架有效地促进了ADSCs向成骨、成腱和软骨生成谱系的分化。3D打印生物活性支架与ADSCs的组合对肩袖损伤显示出优异的修复效果。因此，这些发现表明负载ADSCs和BMP-2的3D打印仿生支架作为用于TBI愈合的有前景的移植物具有潜力。

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3D-printed biomimetic scaffolds loaded with ADSCs and BMP-2 for enhanced rotator cuff repair.负载脂肪干细胞和骨形态发生蛋白-2的3D打印仿生支架用于增强肩袖修复

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负载脂肪干细胞和骨形态发生蛋白-2的3D打印仿生支架用于增强肩袖修复

3D-printed biomimetic scaffolds loaded with ADSCs and BMP-2 for enhanced rotator cuff repair.

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